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This module is from our free online simulations course at edX.org (sign up here). The edX interface provides a better user experience, so we have moved the module there. |
Laminar Pipe Flow
Created using ANSYS 13.0. Tutorial instructions work with ANSYS 14.0 and 15.0. There are minor layout changes in ANSYS 15.0.
Problem Specification
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16.2
Learning Goals
In this module, you'll learn to:
- Develop the numerical solution to a laminar pipe flow problem in ANSYS Fluent
- Verify the numerical results from ANSYS Fluent
- Connect the ANSYS steps to concepts covered in the Computational Fluid Dynamics section
Problem Specification
This module is drawn from MAE 4230/5230 Intermediate Fluid Dynamics at Cornell University.
Consider fluid flowing through a circular pipe of constant radius as illustrated
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below.
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The figure is not to scale. The pipe
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diameter D = 0.2 m and
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length L =
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3 m Consider the inlet velocity to be constant over the cross-section and equal to 1 m/s. The pressure at the pipe outlet is 1 atm. Take
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density ρ = 1 kg/ m
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3 and coefficient of
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viscosity µ = 2 x 10 -
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3 kg/(m*s). These parameters have been chosen to get a desired Reynolds number of 100 and don't correspond to any real fluid.
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We'll solve
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this problem numerically using ANSYS
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Fluent. We'll look at the following results:
Velocity
vectorsvectors
Velocity magnitude contours
Pressure contours
Velocity profile at the outlet
- Skin friction coefficient along the wall
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We'll verify the results by following a systematic process which includes comparing the results with the analytical solution in the full-developed
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region.
Go to Step 1: Pre-Analysis & Start-Upto the EdX course